RATE LAW DETERMINATION OF CRYSTAL VIOLET HYDROXYLATION

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1 Rate Law Determination of Crystal Violet Hydroxylation Revised 10/21/14 RATE LAW DETERMINATION OF CRYSTAL VIOLET HYDROXYLATION Adapted from "Chemistry with Computers" Vernier Software, Portland OR, 1997 INTRODUCTION In this experiment, you will investigate the kinetics of the reaction between crystal violet and sodium hydroxide. The equation for the reaction is shown below: A simplified (and less intimidating!) version of the equation is: (1) CV + + OH à CVOH crystal violet hydroxide ion Kinetics is the study of the speed or rate of a chemical reaction. The differential rate law for the hydroxylation of crystal violet is: (2) rate = -Δ[CV + ] = k [CV + ] m [OH ] n Δt where k is the rate constant for the reaction, m is the order with respect to crystal violet (CV + ), and n is the order with respect to hydroxide ion. To determine the orders of reaction (m and n ), the reaction will need to be done twice. 1

2 Even though the balanced chemical reaction has a 1:1 mole ratio between CV + and - OH, the actual ratios of reactants used in lab will be much different. The concentration of - OH will be approximately 1000 times that of concentration of CV + in trial 1; and 500 times in trial 2. In both trials, the hydroxide ion is in huge excess and can be assumed constant - neither will change appreciably during the reaction. Therefore, the hydroxide's concentration term and reaction order is grouped with the rate constant, k, to create the pseudo rate constants, k 1 and k 2. This allows for the simplification of the rate law: (3) rate 1 = -Δ[CV + ] = k 1 [CV + ] m where k 1 = k[oh ] 1 n ; [OH ] 1 is M. Δt (4) rate 2 = -Δ[CV + ] = k 2 [CV + ] m where k 2 = k[oh ] 2 n ; [OH ] 2 is M. Δt To find the reaction order of CV +, m, and the pseudo rate constants, k 1 and k 2, differential rate laws expressed in equations 3 & 4 must be integrated. (You should review integrated rate laws in your lecture text before continuing.) Integrated rate laws, when arranged in line equation form, result in a mathematical function of concentration for the y axis and time on the x axis. The mathematical function of concentration and the slope reveal the values of m, k 1, and k 2. As the reaction proceeds, a violet-colored reactant will be slowly changing to a colorless product. Using a Visible-Near InfraRed (Vis-NIR) spectrometer, the reduction of absorbance with time will be monitored. Because the solutions used in this experiment are dilute, Beer's Law can be invoked. Absorbance is proportional to the concentration of crystal violet (A = εl[cv + ]) and can be used instead of concentration when plotting data (A [CV + ]). A blank is needed to calibrate the spectrometer and correct for any impurities in the solvent (water) that may also be absorbing at λ max. Because, k, the actual rate constant, does not change (and is the same in both trials), the order of reaction with respect to OH (n) is found from the ratio of the pseudo rate constants and the ratio of the concentrations of hydroxide ion used in trials 1 and 2: (5) k = k 1 / [OH ] n 1 = k 2 / [OH n ] 2 (6) k 1 / k 2 = ([OH ] 1 / [OH ] 2 ) n To solve for n, apply the rule of logarithms: (7) n = log (k 1 /k 2 ) / log ([OH ] 1 / [OH ] 2 ) 2

3 SAFETY Wear safety goggles and lab aprons at all times in lab. Sodium hydroxide is caustic and can cause burns. Wash any affected areas immediately with cold water. Crystal violet leaves stains when spilled. Protect skin and clothing from contact and wash hands and glassware thoroughly when experiment is finished. Before starting the experiment, the TA will asks one of you to do a quick demonstration or talkthrough one of the following: 1) How to properly handle a cuvette (what do you wipe it down with, how do you handle it after it has been wiped down) 2) How to dilute the basic solution PROCEDURE Part A: Calibrate & Blank the VIS-NIR Spectrometer Work in pairs. Wear safety goggles and lab aprons at all times. CAUTION: Sodium hydroxide solutions are caustic. Avoid spilling it on your skin or clothing. Crystal violet is a biological stain and it will stain skin, clothing and glassware. Avoid spills and wash hands thoroughly before leaving lab. 1. Obtain a VIS-NIR spectrometer from the stockroom. Use the USB cable to connect the VIS- NIR Spectrometer to the LabQuest 2. Make sure the mode on the window reads: Full spectrum. 2. Then calibrate the spectrometer by clicking. The calibration dialog box will display the message: Waiting.seconds for lamp to warm up. (The minimum warm up time is one minute.) Note: For best results, allow the spectrometer to warm up for at least three minutes. Insert the blank cuvette (filled with deionized water) in the sample compartment. This step will remove any background absorbance from the solvent (which is water). Click Finish Calibration and then OK. 3. To create an absorption spectrum of crystal violet, fill a cuvette with ~2.0 x 10 5 M crystal violet solution and place in the spectrometer. Click once the data collection is complete. Label any significant peaks with wavelengths. (The wavelength with the maximum 3

4 absorbance should be labeled λ max. All absorbances should be recorded at this same wavelength.) Remove the "rainbow" background spectrum by double clicking the rainbow background. this data to your ELN. Part B: Monitoring Change in Absorbance over Time, Trial 1 1. Prepare the computer to collect absorbance versus time data. Set λ max : Go to the window, click on the mode and change it from full spectrum to time based. Change the duration to 24 minutes and interval to 1 min/sample. Click OK. The Abs should be the maximum wavelength (λ max ) found in Part A, #3. If not, click on the red box labeled USB:Abs@... and change the wavelength to the desired λ max. 2. The stockroom will follow these procedures to create aqueous solutions of NaOH and crystal violet: Place ~0.8 g NaOH in a 1L volumetric flask, dilute to volume with DI H 2 O. Place ~0.01 g crystal violet in a 2L volumetric flask, dilute to volume with DI H 2 O. Set up the calculation before coming to lab, but determine the exact solution concentrations with the more accurate masses provided on the labels of the reagent bottles. 3. Obtain 5.0-mL of both solutions in graduated cylinders. 4. To initiate the reaction, simultaneously pour the 5-mL portions of crystal violet and sodium hydroxide into a 100-mL beaker and stir the reaction mixture with a stirring rod. Click. Important Note: Because initial data is sometimes sporadic, readings are not taken until 3 minutes have passed. Empty the water from the cuvette. Rinse the cuvette twice with ~1-mL amounts of the reaction mixture and then fill it 3/4 full. Do not put the cuvette in the spectrometer yet. 5. After about three minutes have passed since combining the 2 solutions, wipe the outside of the cuvette, place it in the cuvette slot of the spectrometer. Data collection will end after 24 minutes. When you leave the cuvette in the spectrometer, it warms up the solution. What does that do to the reaction you are monitoring? Place the solution in a 100 or 250 ml beaker for neutralization at the end of lab. 6. Analyze the data graphically using excel to decide if the reaction is zero, first, or second order with respect to crystal violet: Zero Order: If the current graph of absorbance vs. time is linear, the reaction is zero order. 4

5 First Order: To see if the reaction is first order, plot the natural logarithm (ln) of absorbance vs. time. If this plot is linear, the reaction is first order. Second Order: To see if the reaction is second order, plot the reciprocal of absorbance vs. time. If this plot is linear, the reaction is second order. Part C: Monitoring Change in Absorbance over Time, Trial 2 1. Prepare ml of ~0.010 M NaOH by diluting the NaOH solution used in Trial 1. (Your procedure should clearly show your calculations, the exact NaOH concentration, and the glassware used to perform the dilution.) Repeat steps 2-6 in Part B using 5.00 ml of the ~0.010 M NaOH solution just made. 2. Combine Trial 2 s and Trial 1 s solution. Add small amounts of dilute HCl(aq) solution and check the solution with ph paper. Once ph 8, pour the neutralized solution down the drain. Make sure to clear your address and password of the LabQuest2 so others can t access your account. Shutdown the LabQuest2 and not simply put it to sleep. To shutdown the LabQuest2: press the home key, select System à Shut Down à OK. DISCUSSION & CALCULATIONS (1) What wavelength should be used to measure the absorbances for the kinetics trials? (2) Examine your plot. What is the order of reaction (m) with respect to crystal violet? (3) Calculate the pseudo rate constant, k 1, using the slope of the linear regression line. (Remember, k 1 or k 2 = slope for zero and first order reactions and k 1 or k 2 = + slope for second order reactions). (4) Write the correct rate law expression for the reaction, in terms of crystal violet only (omit OH ). (5) Calculate the half-life of the reaction (in minutes) using the pseudo rate constant, k 1, and the appropriate half-life equation. 5

6 (6) Calculate the pseudo rate constant, k 2, using the slope of the linear regression line from the graph from Part C. (7) Find the order of reaction (n) with respect to hydroxide ion: n = log (k 1 / k 2 ) / log ([OH ] 1 / [OH ] 2 ) Do not round off value for n if it is a decimal or fraction. Report this value to 2 sig figs. (The concentration of OH was M in Part A and M in Part B.) (8) Now round off the value for n to an integer (0, 1, 2, etc.). Write the complete rate law expression using both CV + and OH in the expression with their appropriate orders. 6

7 QUALITATIVE ERROR ANALYSIS 1. What modifications could be made to the procedure to better account for random (indeterminate) errors? 2. List three potential systematic (instrumental, methodological, or personal) errors that could be made in this experiment. (Note: Be specific, systematic errors are in the details. For example, losing your solution because you knocked over the cuvette is not a systematic error it s a gross one.) 3. Did any gross errors occur? Did you mess up? Did the equipment or instrumentation fail? 7

RATE LAW DETERMINATION OF CRYSTAL VIOLET HYDROXYLATION

RATE LAW DETERMINATION OF CRYSTAL VIOLET HYDROXYLATION Rate Law Determination of Crystal Violet Hydroxylation Revised 5/22/12 RATE LAW DETERMINATION OF CRYSTAL VIOLET HYDROXYLATION Adapted from "Chemistry with Computers" Vernier Software, Portland OR, 1997

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